36 LOGO Company name (full legal name) Issued May 5, 2009 Feedstock Additives Binders Oxygenated compounds (indicative composition in % of weight) Cellulose Hemi-cellulose Lignin Extractives (terpene, fatty acids, phenols) 3-5 None except as stated in Wood Pellets Product Specification None except as stated in Wood Pellets Product Specification Classification as per CEN/TC Standard; D06/M10/A0.7/S0.05/DU97.5/F1.0/N0.3 Many pellet products consist of a blend of white wood and bark feedstock which may affect the characteristics of the pellets. For more detailed information about the properties, see the latest version of Wood Pellets Product Specification issued by the manufacturer. This MSDS includes the major differences in the characteristics of the Dust from pure whitewood and pure bark pellets. III. Health Hazard Data Wood Pellets emit dust and gaseous invisible substances during handling and storage as part of the normal degradation of all biological materials. Ambient oxygen is typically depleted during such degradation. The sizes of the particulate matter range from crumbs to extremely fine airborne dust. The dust normally settles on surfaces over time. Emitted gases are immediately diluted by the air in the containment and escape with ventilation air. If the Wood Pellets are stored in a containment which is not ventilated (naturally or forced) the concentration of emitted gases, or the oxygen depletion, may pose a health threat for humans present in the containment and the containment should be ventilated and precautions should be taken as specified in this MSDS. Section IX includes a method of estimating the concentration of gases. The gases emitted at normal indoor temperature include carbon-monoxide (CO), carbon-dioxide (CO 2 ), methane (CH 4 ) and hydrocarbons with Permissible Exposure Levels (PEL) and symptoms as follows; Entry Substance Permissible Exposure Level and symptom Remedial action Swallow Dust Dry sensation, see Section IX. Rinse mouth thoroughly with water. Do not induce vomiting. Inhale Dust Coughing, dry throat. For toxicological data, see Rinse mouth thoroughly with water. Carbon monoxide (CO) Section X. Toxic invisible and odorless gas. Living space TLV-TWA 9 ppmv (ASHRAE). Work space TLV-TWA 25 ppmv (OSHA). Do not induce vomiting. If hygiene level is exceeded, evacuate and ventilate thoroughly, see Section IX for estimation of ventilation requirement. 50 ppmv Max 15 minutes. 200 Mild headache. Evacuate. 400 Serious headache. Evacuate and seek medical attention. 800 Dizziness, convulsion, unconscious Evacuate and seek medical attention. in 2 hours, death in 2-3 hours. 1,600 Dizziness, convulsion, unconscious, Evacuate and seek medical attention. death in 1-2 hours. 3,200 Dizziness, convulsion, unconscious, Evacuate and seek medical attention. death in 1 hour.. 6,400 Dizziness, convulsion, unconscious, Evacuate and seek medical attention. Member of Wood Pellet Association of Canada (WPAC) 2

37 LOGO Company name (full legal name) Issued May 5, 2009 Skin contact Eye contact Carbon dioxide (CO 2 ) death in 25 minutes. 12,800 Dizziness, convulsion, unconscious, death in 1 3 minutes. Asphyxiating invisible and odorless gas. Occupational TLV-TWA 5,000 ppmv (OSHA) Methane (CH 4 ) Asphyxiating invisible and odorless gas. Ventilate Hydrocarbons See Section IX. Odor. Ventilate Oxygen depleted air Dust Dust Oxygen level is normally 20.9 % at sea level in well ventilated space. Minimum hygiene level is 19.5 % in work space (NIOSH) Itching for some people. For toxicological data, see Section X. Tearing, burning. For toxicological data, see Section X. Evacuate and seek medical attention. If hygiene level is exceeded, ventilate thoroughly, see Section IX for estimation of ventilation requirement. If oxygen level is less than hygiene level, evacuate and ventilate thoroughly. Remove contaminated clothing. Rinse skin thoroughly with water. Flush with water and sweep out particles inward towards the nose IV. First Aid Procedures Wood Pellets are considered a benign product for most people. However, individuals with a propensity for allergic reactions may experience reactions and should contact their physician to establish the best remedial action to take if reaction occurs. In case Wood Pellets are not handled or stored in accordance with recommendations in Section VII the risk of harmful exposure increases, particularly exposure to concentration of CO higher than stipulated PEL in Section III. In case of exposure it is important to quickly remove the victim from the contaminated area. Unconscious persons should immediately be given oxygen and artificial respiration. The administration of oxygen at an elevated pressure has shown to be beneficial, as has treatment in a hyperbaric chamber. The physician should be informed that the patient has inhaled toxic quantities of carbon monoxide. Rescue personnel should be equipped with self-contained breathing apparatus when entering enclosed spaces with gas. Carbon monoxide is highly toxic by means of binding with the hemoglobin in the blood to form carboxyhemoglobin which can not take part in normal oxygen transport, greatly reducing the blood s ability to transport oxygen to vital organs such as the brain. Asphyxiating gases like carbon dioxide and methane (sometimes called simple asphyxiant) are primarily hazardous by means of replacing the air and thereby depriving the space of oxygen. Person exposed to oxygen depleted conditions should be treated the same as a person exposed to carbon monoxide. V. Fire and Explosion Measures Wood Pellets is a fuel and by nature is prone to catch fire when exposed to heat or fire. During handling of Wood Pellets there are three phases with various levels of stability, reactivity (see section IX) and decomposition products: - solid intact Wood Pellets - crumbs or dust - non-condensable (primarily CO, CO 2 and CH 4 ) and condensable gases (primarily aldehydes, acetone, methanol, formic acid) Extinguishing a fire in Wood Pellets require special methods to be successful as follows; Member of Wood Pellet Association of Canada (WPAC) 3

38 LOGO Company name (full legal name) Issued May 5, 2009 State of Wood Pellets General Storage in enclosed space Storage in open flat storage During handling Extinguishing measures Restrict oxygen from entering the space where the Wood Pellets are stored. Cover exposed pellets with foam or sand to limit exposure to air. Be prepared for an extended period of extinguishing work. An industrial size silo may take a week to fully bring under control. Seal openings, slots or cracks where Wood Pellets may be exposed to air. Inject nitrogen (N 2 ) or carbon dioxide (CO 2 ) in gaseous form at the bottom or in the middle of the pile of Wood Pellets or as close as possible to the fire if exposed. N 2 is preferred. Dosage of gas depends on the severity of the fire (how early detection is made). Recommended injection speed is 5 10 kg/m 2 /hour (m 2 refers to the cross section of the storage containment such as a silo) with a total injected volume throughout the extinguishing activity of 5 15 kg/m 3 for less severe fires and kg/m 3 for more advanced fires. Cover the pile of Wood Pellets with foam or sand if available or spray water. Dig out the pile to reach the heart of the fire and remove effected material. Restrict oxygen from entering the space where the Wood Pellets are present Cover the Wood Pellets with foam or sand if available or spray water. Dig out the material to reach the heart of the fire and remove effected material. Additional information Recommended values developed by SP Technical Research Institute of Sweden Specific volume for N 2 is m 3 /kg and for CO m 3 /kg (at NTP) VI. Accidental Release Measures If Wood Pellets are released in a populated area, the material should be removed by sweeping or vacuuming as soon as possible. Wood Pellets are a fuel and should preferably be disposed of by means of burning. Deposition of Wood Pellets or related dust should be such that gas from the material does not accumulate. Wear a protective mask to prevent inhaling of dust during cleanup (see Section VIII). VII. Safe Handling and Storage Precautionary measures are recommended to avoid hazardous conditions by the reactivity as outlined in Section IX developing when handling Wood Pellets. State of Wood Pellets General Precautionary measures Always store Wood Pellets in containment with a minimum of one (1) air exchange per 24 hours at + 20 o C and a minimum of two (2) air exchanges per 24 hours at + 30 o C and above. For long period storage in large bulk containment shall be as air tight as possible. Fires tend to migrate towards air (oxygen) supply. For shorter period open storage, ventilate to eliminate gas and odor. Additional information Member of Wood Pellet Association of Canada (WPAC) One air exchange corresponds to the volume of the containment. Early warning sensors for heat and gas detection enhances the safety of storing Wood Pellets 4

39 LOGO Company name (full legal name) Issued May 5, 2009 Storage in enclosed space Storage in open space During handling Protect the Wood Pellets from contact with water and moisture to avoid swelling, increased offgassing, increased microbial activity and subsequent self-heating. Always protect Wood Pellets and dust from exposure to heat radiators, halogen lamps and exposed electrical circuitry which may generate ignition energy and set off a fire or explosion. Always segregate the Wood Pellets from oxidizing agents (e.g. poly-oxides capable of transferring oxygen molecules such as permanganate, perchlorate) or reducing agent (e.g. chemical compounds which includes atoms with low electronegativity such as ferrous ions (rust), sodium ions (dissolved sea salt)). Do not expose Wood Pellets to rain. Do not smoke or extinguish cigarettes in the vicinity of Wood Pellets or wood dust. For large enclosed storage entry should be prohibited by means of secured lock and a well established written approval process for entry, only AFTER ventilation has been concluded and measurement with gas meter has confirmed safe atmosphere in the space. Alternatively, use selfcontained breathing apparatus when entering space. Always make sure backup personnel are in the immediate vicinity monitoring the entry. Install N 2 or CO 2 sprinklers as per applicable fire regulations. For large storage spaces install water sprinklers. For smaller storage spaces, contact your local fire department for recommendations. Avoid breakage caused by dropping the Wood Pellets. Be aware of potential dust generation during high pressure pneumatic handling of pellets. Avoid friction generated by rough surfaces such as worn out conveyor belts as much as possible. Suppress dust generation and accumulation at transfer points and in areas close to mechanical moving parts which may dissipate heat. Apparatus exposed to dust generated during the handling should be rated accorded to applicable safety standards, see ATEX directives. Warning signs should be posted in areas where dust tends to remain suspended in air or settle on hot surfaces, see Section IX Explosibility. For large enclosed storage, label the points of entry to storage containment or communicating spaces containing Wood Pellets with a sign such as Low Oxygen Risk Area, Ventilate thoroughly before Entry. See Section IX Explosibility and applicable ATEX directives. Schedule for Wood Pellets, Code of Safe Practice for Solid Bulk Cargoes, 2004, IMO 260E. Install heat and gas detectors with visible and audible alarm. Label points of entry to enclosed storage areas containing Wood Pellets with Carbon monoxide Risk Area, Ventilate thoroughly before Entry. A Shipper Cargo Information Sheet (SCIS) must be used when shipping Wood Pellets in ocean vessels as per international regulations issued by IMO, see SCIS issued by Producer. Sand or foam has proven to be effective to limit access of oxygen in case of fire. Monitor temperature at bearings, pulleys, augers or other heat generating machinery. Example of labels and pictogram: HIGH DUST CONCENTRATION OR ACCUMULATION ON SURFACES MAY CAUSE EXPLOSIONS OR FIRES. VENTILATE AND KEEP SURFACES CLEAN. Member of Wood Pellet Association of Canada (WPAC) 5

40 LOGO Company name (full legal name) Issued May 5, 2009 EX VIII. Exposure Control and Personal Protection The following precautionary measures shall be taken for personal protection: Activity Precautionary measure Additional information Entering space containing Wood Pellets Ventilate thoroughly all communicating spaces before entering. In the event the space is enclosed, always measure both level of carbon monoxide and oxygen. When door to space is labeled with warning sign, make sure to follow instructions and obtain permit in writing to enter. Use self-contained breathing apparatus if entry is required before proper ventilation has been completed. For estimation of ventilation requirement, see Section IX. Oxygen level at sea level shall be 20.9 % in well ventilated space. Space with carbon monoxide level > 25 ppmv shall not be entered into without caution, see Section III. Examples of labels and pictogram: LOW OXYGEN RISK AREA. VENTILATE BEFORE ENTRY. ALWAYS MEASURE CARBONMONOXIDE AND OXYGEN. CARBONMONOXIDE RISK AREA. VENTILATE BEFORE ENTRY. ALWAYS MEASURE CARBONMONOXIDE AND OXYGEN. Exposure to dust from Wood Pellets Wear protective glasses and dust respirator. Wear gloves during continuous or repetitious penetration. IX. Stability and Reactivity Data The stability and reactivity properties of Wood Pellets are as follows: Parameter Measure Value Odor o C Above + 5 o C, fresh Wood Pellets in bulk smells like aldehydes in poorly ventilated space and more like fresh softwood in ventilated space. Member of Wood Pellet Association of Canada (WPAC) 6

41 LOGO Company name (full legal name) Issued May 5, 2009 Off-gassing Emission Factor (g/tonne) Emission of CO, CO 2 and CH 4 from Wood Pellets contained in a space is a function of temperature, ambient air pressure, bulk density, void in Wood Pellets, access to oxygen, relative humidity in air (if ventilated) as well as the age and composition of the raw material (unique for the product as specified in the Wood Pellet Product Specification). The emission rate in grams (g) of off-gassing per tonne of stored Wood Pellets given below are from measurements of gas generated within a sealed containment filled with Wood Pellets at approximately constant pressure without ventilation over a period of > 20 days. The emission factors values are only valid for sealed containment without sufficient oxygen available to support oxidation of the Wood Pellets (see Oxidation in this Section). The numbers should not at any time be substituted for actual measurements. The following examples illustrate how the emission factors can be used for estimating a rough order of magnitude of the gas concentration in a nonventilated as well as a ventilated containment with Wood Pellets, assuming the ambient air pressure is constant. Non-ventilated (sealed) containment Gas species Temperature o C Emission factor (±10 %) g/tonne/>20 days Carbon-monoxide (CO) Carbon-dioxide (CO 2 ) Methane (CH 4 ) Example A. - Mass of Wood Pellets = 1000 tonne - Bulk density of Wood Pellets = 700 kg/m 3 (0.7 tonne/m 3 ) - Solids in bulk Wood Pellets including 0.5 % fines = 50 % - Size of containment = 2800 m 3 - Temperature = +20 o C (constant) - Emission factor for CO (>20 days storage time) = 12 g/tonne (see table above) Calculation of concentration of CO (g/m 3 ) in containment; 12 (g/tonne)*1000 (tonne)/[2800 (m 3 )-50%*1000 (tonne)/0.7 (tonne/m 3 )] = 5.8 g/m 3 Calculation of concentration of CO (ppmv) in containment - Ambient pressure = kpa (1 atm) - Molecular weight of CO (Mwt) = 28 (g/mol) (g/m 3 )*(20( o C)+273.1(C o ))/Mwt(g/mol)/0.012 = 5.8*293.1/28/0.012 = 5060 ppmv after > 20 days of storage in sealed containment. Member of Wood Pellet Association of Canada (WPAC) 7

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